//
// C++ Implementation: pinnode
//
// Description:
//
//
//
// Copyright: See COPYING file that comes with this distribution
//
//
#include "pinnode.h"
#include "component.h"
#include "pin.h"

#include <QPainter>
#include <cmath>

/// The maximum length of the voltage indiactor
const int vLength = 8;

/// The current at the middle of the current indicator
const double iMidPoint = 0.03;

/// The maximum thicnkess of the current indicator
const int iLength = 6;

inline double calcIProp(const double i)
{
    return 1 - iMidPoint / (iMidPoint + std::abs(i));
}

inline int calcThickness(const double prop)
{
    return (int)((iLength - 2) * prop + 2);
}

inline int calcLength(double v)
{
    double prop = Component::voltageLength(v);
    if (v > 0)
        prop *= -1.0;

    return int(vLength * prop);
}
PinNode::PinNode(ICNDocument *icnDocument, int dir, const QPoint &pos, QString *id)
    : ECNode(icnDocument, Node::ec_pin, dir, pos, id)
{
    QString name("PinNode");
    if (id) {
        name.append(QString("-%1").arg(*id));
    } else {
        name.append("-Unknown");
    }
    setObjectName(name.toLatin1().data());

    m_pinPoint = new KtlQCanvasRectangle(0, 0, 3, 3, canvas());
    m_pinPoint->setBrush(Qt::black);
    m_pinPoint->setPen(QPen(Qt::black));
}

PinNode::~PinNode()
{
}

void PinNode::drawShape(QPainter &p)
{
    initPainter(p);

    double v = pin() ? pin()->voltage() : 0.0;
    QColor voltageColor = Component::voltageColor(v);

    QPen pen = p.pen();

    if (isSelected())
        pen = m_selectedColor;
    else if (m_bShowVoltageColor)
        pen = voltageColor;

    if (m_pinPoint) {
        bool drawDivPoint;
        QPoint divPoint = findConnectorDivergePoint(&drawDivPoint);
        m_pinPoint->setVisible(drawDivPoint);
        m_pinPoint->move(divPoint.x() - 1, divPoint.y() - 1);
        m_pinPoint->setBrush(pen.color());
        m_pinPoint->setPen(pen.color());
    }

    // Now to draw on our current/voltage bar indicators
    int length = calcLength(v);

    if ((numPins() == 1) && m_bShowVoltageBars && length != 0) {
        // we can assume that v != 0 as length != 0
        double i = pin()->current();
        double iProp = calcIProp(i);
        int thickness = calcThickness(iProp);

        p.setPen(QPen(voltageColor, thickness));

        // The node line (drawn at the end of this function) will overdraw
        // some of the voltage bar, so we need to adapt the length
        if ((v > 0) && (((225 < m_dir) && (m_dir < 315)) || ((45 < m_dir) && (m_dir < 135))))
            length--;

        else if ((v < 0) && (((135 < m_dir) && (m_dir < 225)) || ((315 < m_dir) || (m_dir < 45))))
            length++;

        if ((m_dir > 270) || (m_dir <= 90))
            p.drawLine(3, 0, 3, length);
        else
            p.drawLine(3, 0, 3, -length);
    }

    pen.setWidth((numPins() > 1) ? 2 : 1);
    p.setPen(pen);

    p.drawLine(0, 0, m_length, 0);

    deinitPainter(p);
}

void PinNode::initPoints()
{
    int l = -m_length;

    // Bounding rectangle, facing right
    QPolygon pa(QRect(0, -8, l, 16));

    QTransform m;
    m.rotate(m_dir);
    pa = m.map(pa);
    setPoints(pa);
}
